Research Article
Year 2020,
, 49 - 57, 31.03.2020
Abstract
References
- [1]. Grazen, A.E., Iron Age. 183 (1959) 944.
- [2]. Zıegler Sautter, F.J., Electrochem. Soc. 110 (1963) 575
- [3]. Fink, C.G., Trans. Am. Electrochem. Soc. 54 (1928) 315.
- [4]. Edwards, J.A., Prod. Finish. 2 (1959) 66.
- [5]. Williams, R.V., Electroplat. Metal Finish. 19 (1966) 927.
- [6]. Greco, V.P., Baldauf, W. Plating, 55 (1968) 2508.
- [7]. Weimer A. W., 1997, “Carbide, Nitride and Boride Materials Synthesis and Processing”,Springer, ISBN 0412540606, P671.
- [8]. Zhang Q., Wu1, M., and Z. Wen ‘Electroless nickel plating on hollow glass microspheres’ ‘Surface & Coatings Technology’ 192 (2005) 213– 219
- [9]. Trojanová Z., Lukáˇc P., Ferkel H.and Riehemann W., 2004, “Internal Friction in Microcrystalline and Nanocrystalline Mg”, Materials Science and Engineering A 370, P154-157.
- [10]. Gaard A., Krakhmalev P., Bergstrom J. “Microstructural characterization and wear behavior of (Fe,Ni)–TiC MMC prepared by DMLS”, Journal of Alloys and Compounds, 421 p166–171., 2006
- [11]. V. Richter and M.V. Ruthendorf, J. Ref. Met. And Mater. 17, pp.141-152., 1999
- [12]. Yönetken, A., Erol A., “The Effect of Microwave Sintering on the Properties of Electroless Ni Plated WC-Fe-Ni Composites”, Science And Engineering of Composite Materials, 17/3, 191-199, 2010
- [13]. A. Erol, A. Yönetken, “Fabrication of Electroless Ni plated Fe-TiC Metal Matrix Composıtes”, Science And Engineering of Composite Materials, 18/3,145-149 2011
- [14]. Tao Li, Qingfa Li, J.Y.H. Fuha, Poh Ching Yu, C.C. Wu, Effects Of Lower Cobalt Binder Concentrations In Sintering Of Tungsten Carbide, Materials Science And Engineering A, Volume: 430, 113–119, 2006.
- [15]. Yuhong X., Ki L., Xiaoying Z., Schoenung Julie M., “A Streamlined Life Cycle Assessment On The Fabrication Of WC-Co Cermets, Journal Of Cleaner Production”, Volume:16, 1118-1126, 2008.
- [16]. Taheri-Nassaj, E., Mirhosseini, S.H., “An In Situ WC–Ni Composite Fabricated By The SHS Method”, Journal Of Materials Processing Technology, Volume: 142, 422–426, 2003.
- [17]. Upadhyaya G.S., Bhaumik S.K., Sintering Of Submicron WC–10% Co Hard Metals Containing Ni And Fe, Materyal Sciences Engineering-A, Volume:249, 105–106,
DETERMINING PROPERTIES OF NICKEL BASED COMPOSITE THAT REINFORCED BY ELECTROLESS NICEL PLATED BORON NITRIDE AND ASTALOY-CrM POWDERS
Abstract
In this study, Ni
coated (1.66% BN- 31.65% Astaloy-CrM) powders were formed circularly in
uniaxial press. These samples are sintered in conventional furnace with argon
atmosphere at 1000-1100-1200-1300-1400 ° C. After sintering, mechanical and
metallographic XRD and SEM (Scanning Electron Microscope) were investigated.
The highest hardness value of 86,12 HB was obtained in the 66,67% composite
sample sintered (1,66% BN- 31,65% Astaloy-CrM) at 1400 °C from the experimental
results.
References
- [1]. Grazen, A.E., Iron Age. 183 (1959) 944.
- [2]. Zıegler Sautter, F.J., Electrochem. Soc. 110 (1963) 575
- [3]. Fink, C.G., Trans. Am. Electrochem. Soc. 54 (1928) 315.
- [4]. Edwards, J.A., Prod. Finish. 2 (1959) 66.
- [5]. Williams, R.V., Electroplat. Metal Finish. 19 (1966) 927.
- [6]. Greco, V.P., Baldauf, W. Plating, 55 (1968) 2508.
- [7]. Weimer A. W., 1997, “Carbide, Nitride and Boride Materials Synthesis and Processing”,Springer, ISBN 0412540606, P671.
- [8]. Zhang Q., Wu1, M., and Z. Wen ‘Electroless nickel plating on hollow glass microspheres’ ‘Surface & Coatings Technology’ 192 (2005) 213– 219
- [9]. Trojanová Z., Lukáˇc P., Ferkel H.and Riehemann W., 2004, “Internal Friction in Microcrystalline and Nanocrystalline Mg”, Materials Science and Engineering A 370, P154-157.
- [10]. Gaard A., Krakhmalev P., Bergstrom J. “Microstructural characterization and wear behavior of (Fe,Ni)–TiC MMC prepared by DMLS”, Journal of Alloys and Compounds, 421 p166–171., 2006
- [11]. V. Richter and M.V. Ruthendorf, J. Ref. Met. And Mater. 17, pp.141-152., 1999
- [12]. Yönetken, A., Erol A., “The Effect of Microwave Sintering on the Properties of Electroless Ni Plated WC-Fe-Ni Composites”, Science And Engineering of Composite Materials, 17/3, 191-199, 2010
- [13]. A. Erol, A. Yönetken, “Fabrication of Electroless Ni plated Fe-TiC Metal Matrix Composıtes”, Science And Engineering of Composite Materials, 18/3,145-149 2011
- [14]. Tao Li, Qingfa Li, J.Y.H. Fuha, Poh Ching Yu, C.C. Wu, Effects Of Lower Cobalt Binder Concentrations In Sintering Of Tungsten Carbide, Materials Science And Engineering A, Volume: 430, 113–119, 2006.
- [15]. Yuhong X., Ki L., Xiaoying Z., Schoenung Julie M., “A Streamlined Life Cycle Assessment On The Fabrication Of WC-Co Cermets, Journal Of Cleaner Production”, Volume:16, 1118-1126, 2008.
- [16]. Taheri-Nassaj, E., Mirhosseini, S.H., “An In Situ WC–Ni Composite Fabricated By The SHS Method”, Journal Of Materials Processing Technology, Volume: 142, 422–426, 2003.
- [17]. Upadhyaya G.S., Bhaumik S.K., Sintering Of Submicron WC–10% Co Hard Metals Containing Ni And Fe, Materyal Sciences Engineering-A, Volume:249, 105–106,
There are 17 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | March 31, 2020 |
| Published in Issue | Year 2020 |